Membrane trafficking in the eukaryotic cell is a highly controlled and significant process that is related to various inherited disorders and cancers. Among numerous regulatory proteins, Uso1 protein – an essential, long, coiled-coil protein – plays a key role in the tethering process, capturing and pulling the vesicle toward the target membrane. Despite many years of work, the tethering mechanism has not been fully understood. Although several tethering models have been proposed, none of them were tested with Uso1 protein. Hence, to test these models, we engineered a mechanically deficient version of Uso1 protein, which lacks the critical tethering region for functioning. After the protein characterization, in cell survival tests and in test tube tests in chemically defined fusion system have been performed. The failure of the trafficking event, which would support our hypothesis, along with other functional test data, would provide a promising demonstration for the tethering mechanism of the long coiled-coil tether and the role of Uso1 protein.